A Method for the Routine Analysis of Pitch-and-Roll Buoy Wave Data

A. J. Kuik Ministry of Transport and Public Works, Division of Tidal Waters, The Hague, The Netherlands

Search for other papers by A. J. Kuik in
Current site
Google Scholar
PubMed
Close
,
G. Ph van Vledder Department of Civil Engineering, Delft University of Technology, Delft, The Netherlands

Search for other papers by G. Ph van Vledder in
Current site
Google Scholar
PubMed
Close
, and
L. H. Holthuijsen Department of Civil Engineering, Delft University of Technology, Delft, The Netherlands

Search for other papers by L. H. Holthuijsen in
Current site
Google Scholar
PubMed
Close
Restricted access

Abstract

A simple, computationally efficient method is proposed as a standard procedure for the routine analysis of pitch-and-roll buoy wave data. The method yields four directional model-free parameters per frequency: the mean direction, the directional width, the skewness, and the kurtosis of the directional energy distribution. For most applications these parameters provide sufficient directional information. The estimation procedure and error characteristics of the parameter estimates are discussed and illustrated with computer simulated data. An optional interpretation of the combination of skewness and kurtosis as an indicator of uni-modality of the directional energy distribution is suggested and illustrated with field observations.

Abstract

A simple, computationally efficient method is proposed as a standard procedure for the routine analysis of pitch-and-roll buoy wave data. The method yields four directional model-free parameters per frequency: the mean direction, the directional width, the skewness, and the kurtosis of the directional energy distribution. For most applications these parameters provide sufficient directional information. The estimation procedure and error characteristics of the parameter estimates are discussed and illustrated with computer simulated data. An optional interpretation of the combination of skewness and kurtosis as an indicator of uni-modality of the directional energy distribution is suggested and illustrated with field observations.

Save